1 #include "services_microboone.fcl"
2 #include "textfilegen.fcl"
3 #include "largeantmodules.fcl"
4 #include "detsimmodules.fcl"
10 # Load the service that manages root files for histograms.
11 TFileService: { fileName: "text_hist.root" }
13 RandomNumberGenerator: {} #ART native random number generator
14 @table::microboone_simulation_services
18 #Start each new event with an empty event.
21 module_type: EmptyEvent
22 timestampPlugin: { plugin_type: "GeneratedEventTimestamp" }
23 maxEvents: 1 # Number of events to create
24 firstRun: 1 # Run number to use for this file
25 firstEvent: 1 # number of first event in the file
28 # Define and configure some modules to do work on each event.
29 # First modules are defined; they are scheduled later.
30 # Modules are grouped by type.
36 generator: @local::standard_textfilegen
37 largeant: @local::microboone_largeant
38 daq: @local::microboone_simwire
39 rns: { module_type: "RandomNumberSaver" }
42 #define the producer and filter modules for this path, order matters,
43 #filters reject all following items. see lines starting physics.producers below
44 simulate: [ generator, largeant, daq, rns ]
46 #define the output stream, there could be more than one if using filters
49 #trigger_paths is a keyword and contains the paths that modify the art::event,
50 #ie filters and producers
51 trigger_paths: [simulate]
53 #end_paths is a keyword and contains the paths that do not modify the art::Event,
54 #ie analyzers and output streams. these all run simultaneously
58 #block to define where the output goes. if you defined a filter in the physics
59 #block and put it in the trigger_paths then you need to put a SelectEvents: {SelectEvents: [XXX]}
60 #entry in the output stream you want those to go to, where XXX is the label of the filter module(s)
65 module_type: RootOutput
66 fileName: "text_gen.root" #default file name, can override from command line with -o or --output